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Course Criteria
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3.00 Credits
Consideration of the principles of operation, external characteristics, and applications of some of the more important semiconductor devices presently available. Preq: ECE 3200 with a C or better.
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1.00 Credits
Individually defined projects oriented toward providing experience in establishment of objectives and criteria, synthesis, analysis, construction, testing, and evaluation. Develops student creativity through the solution of open-ended problems. Includes individual instruction in design methodology. May be repeated for a maximum of three credits. Preq: ECE 3300 or ECE 4090, each with a C or better; and consent of project supervisor.
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3.00 Credits
Microelectronic processing, MOS and bipolar monolithic circuit fabrication, thick and thin film hybrid fabrication, applications to linear and digital circuits, fundamentals of device design. Preq: ECE 3200 with a C or better.
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3.00 Credits
Introduction to the fundamentals of silicon photonic components and circuits. Topics include methods for device simulation, CAD layout, device fabrication, testing, and data analysis. The course includes a design project in which a new device is designed to meet or surpass given target specifications. Preq: ECE 3200 and ECE 3800, each with a grade of C or better.
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3.00 Credits
Introduction to classical linear control systems. Topics include continuous and discrete descriptions of systems, time and frequency response, stability, system specification, system design of continuous and discrete systems. Preq: ECE 3300 with a C or better.
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3.00 Credits
Introduction to control systems specifically related to electrical and computer engineering industrial applications, and manufacturing and production systems. Topics include continuous variable control and the PID paradigm, applications of the Z-transform, digital control, model-predictive control, direct adaptive control, discrete logic control, ladder logic and PLC implementation, and equipment interfacing and industrial networking protocols. Preq: ECE 4090 with a grade of C or better.
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1.00 Credits
Selected experiments to familiarize students with characteristics of transformers, DC and AC motors and generators. Measurement techniques and component modeling are included. Preq or concurrent enrollment: ECE 3600.
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3.00 Credits
This introductory course on smart grid covers the concepts and technologies that transform the traditional power system into an intelligent power system, now referred to as the smart grid. The interdisciplinary technologies needed for this transformation are introduced in this course. Preq: Senior standing.
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3.00 Credits
Foundations of software design, reasoning about software, the calculus of programs, survey of formal specification techniques and design languages. Preq: ECE 3220 and ECE 3520 and MATH 4190, each with a C or better.
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3.00 Credits
Study of power system planning and operational problems. Topics include load flow, economic dispatch, fault studies, transient stability, and control of problems. System modeling and computer solutions are emphasized through class projects. Preq: ECE 3600 and ECE 3800, each with a C or better.
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